JP6968283B2 - Video display device and video display method - Google Patents

Description

The present invention relates to a video display device and a video display method.

The following Patent Document 1 discloses a video display device that displays a video on a display screen based on video information input from an external device.
In such a video display device, if there is a change in the video information input from the external device and the user is dissatisfied with the changed video, the user operates a button or the like on the main body of the video display device. , It is necessary to adjust the items that can be adjusted (hereinafter referred to as "adjustment items") with respect to the display screen.

Japanese Unexamined Patent Publication No. 2007-151125

However, it may not be possible for the user to determine which adjustment item should be adjusted, and it may be difficult to make an optimum adjustment.

The present invention has been made in view of such circumstances, and an object of the present invention is to make optimum adjustments to a display screen.

One aspect of the present invention is a video display device that acquires video information including various signals necessary for displaying video from an external device and displays the video based on the video information on a display screen. When there is a change between the operation receiving unit and the video information, and the operation is received by the operation receiving unit, the change in the signal value of the various signals exceeds the threshold value before and after the change in the video information. An extraction unit that extracts signals, a specific unit that specifies adjustment items on the display screen corresponding to the signal extracted by the extraction unit, and an adjustment unit that adjusts the set values of the adjustment items specified by the specific unit. It is a video display device characterized by being provided with.

One aspect of the present invention is the above-mentioned video display device, wherein the extraction unit is a signal among the various signals whose change exceeds the threshold value before and after the change of the video information, and the most change is the most. Extract large signals.

One aspect of the present invention is the above-mentioned image display device, in which the signal that affects the brightness of the display screen is grouped as the first group and the signal that affects the color of the image is the second group among the various signals. Further, a classification unit for classifying as a group is further provided, and the extraction unit extracts a signal having the maximum change in each of the groups.

One aspect of the present invention is the above-mentioned video display device, and when the operation is received by the operation reception unit after the image information is changed, the extraction unit receives the various signals. Among them, a signal whose change in signal value exceeds the threshold value before and after the change in the video information is extracted.

One aspect of the present invention is the above-mentioned image display device, in which the storage unit and, when the image information is changed, the image information before the change is stored in the storage unit, and the change is performed. A signal processing unit for displaying video information on the display screen is provided, and the extraction unit is stored in the storage unit among the various signals when the operation is received by the operation reception unit. A signal in which the change in the signal value exceeds the threshold value is extracted from the video information before the change and the video information displayed on the display screen.

One aspect of the present invention is the above-mentioned image display device, in which the storage unit and, when the image information is changed, the image information before the change and the image information after the change are stored in the storage unit. The extraction unit is provided with a signal processing unit stored in the storage unit, and when the operation is received by the operation reception unit, the extraction unit is stored in the storage unit among the various signals before and after the change. A signal whose change in signal value exceeds the threshold is extracted from the video information.

One aspect of the present invention is the above-mentioned video display device, in which the adjusting unit sets the set value of the adjustment item specified by the specific unit based on the rate of change of the signal extracted by the extracting unit. adjust.

One aspect of the present invention is the above-mentioned video display device, in which either the first direction in which the set value is high or the second direction in which the set value is low is set. A display control unit for displaying a selection screen to be selected is displayed on the display screen, and the adjustment unit adjusts the set value in the direction selected by the selection screen.

One aspect of the present invention is the above-mentioned video display device, in which the adjusting unit receives signals extracted by the extracting unit when the direction selected by the selection screen is the first direction. The value with a plus sign on the rate of change is multiplied by the set value, and if the direction selected by the selection screen is the second direction, the value with a minus sign on the rate of change is used. The set value is adjusted by multiplying the set value.

One aspect of the present invention is a video display method in which video information including various signals necessary for displaying video is acquired from an external device and the video based on the video information is displayed on the display screen of the video display device. When there is a change in the operation acceptance step for accepting the operation and the video information, and the operation is accepted by the operation acceptance step, the signal value of the various signals changes before and after the change in the video information. Adjusts the extraction step of extracting the signal exceeding the threshold, the specific step of specifying the adjustment item of the display screen corresponding to the signal extracted by the extraction step, and the setting value of the adjustment item specified by the specific step. It is a video display method including an adjustment step to be performed.

As described above, according to the present invention, it is possible to make optimum adjustments to the display screen.

It is a figure which shows an example of the schematic structure of the image display system A provided with the image display device which concerns on 1st Embodiment. It is a functional block diagram which adjusts the display screen of the arithmetic control unit 9 which concerns on 1st Embodiment. It is a figure explaining the operation of the image display device 2 which concerns on 1st Embodiment. It is a figure which shows an example of the schematic structure of the image display system B provided with the image display device which concerns on 2nd Embodiment. It is a functional block diagram which adjusts the display screen of the arithmetic control unit 9 which concerns on 2nd Embodiment. It is a figure explaining the operation of the image display device 2B which concerns on 2nd Embodiment. It is a figure which shows an example of the change rate of each signal of the 1st group which concerns on 2nd Embodiment. It is a figure which shows an example of the change rate of each signal of the 2nd group which concerns on 2nd Embodiment. It is a figure explaining the main structure of the image display device 2 which concerns on one Embodiment of this invention.

Hereinafter, a video display device according to an embodiment of the present invention will be described with reference to the drawings.

(First Embodiment)
FIG. 1 is a diagram showing an example of a schematic configuration of a video display system A including the video display device according to the first embodiment. As shown in FIG. 1, the video display system A includes an external device 1 and a video display device 2.

The external device 1 is, for example, a PC (personal computer) and is connected to the video display device 2 by wire or wirelessly. The external device 1 outputs a video signal to the video display device 2 by wire or wirelessly. This video signal includes various signals necessary for displaying a video on the display screen of the video display device 2. For example, the video signal includes video information such as a luminance signal indicating a luminance value and a chromaticity signal indicating a chromaticity.

More specifically, the external device 1 includes a calculation unit 3 and an output control unit 4.

The calculation unit 3 generates a video signal based on the video information displayed on the display screen of the video display device 2 and outputs the video signal to the output control unit 4.

The output control unit 4 outputs the video signal generated by the calculation unit 3 to the video display device 2. For example, the output control unit 4 transmits (outputs) the video signal to the video display device 2 after performing standby processing for transmitting the video signal generated by the arithmetic unit 3 to the video display device 2.

The video display device 2 displays a video based on the video signal transmitted from the output control unit 4 on the display screen of the own device. Hereinafter, a schematic configuration of the video display device 2 according to the embodiment of the present invention will be described.

The video display device 2 includes an input control unit 5, a video signal processing unit 6, an operation reception unit 7, an operation processing unit 8, an arithmetic control unit 9, a storage unit 10, a display control unit 11, and a display unit 12.

The input control unit 5 acquires the video signal transmitted from the output control unit 4 and inputs it to the video signal processing unit 6.

The video signal processing unit 6 analyzes the video signal input from the input control unit 5 and transmits the analysis result to the arithmetic control unit 9. For example, the video signal processing unit 6 analyzes the video signal input from the input control unit 5 to extract video information included in the video signal, that is, signal values of various signals. For example, the video signal processing unit 6 extracts the luminance value as the signal value of the luminance signal included in the video signal and the chromaticity as the signal value of the chromaticity signal included in the video signal as video information. Then, the video signal processing unit 6 outputs the extracted video information to the arithmetic control unit 9.

The operation receiving unit 7 receives an operation on the video display device 2. This operation is an operation related to automatic adjustment of the display screen of the video display device 2, and is, for example, an operation by a user. In the present embodiment, the operation reception unit 7 is an interface for the user to adjust the display screen of the video display device 2. For example, the operation receiving unit 7 includes an operation unit such as a plurality of buttons and a touch panel, and receives an operation by the user by detecting that the operation unit has been operated by the user. Further, the operation receiving unit 7 is provided with a communication unit, and even if the communication unit receives an operation by a user by receiving a signal indicating an operation related to the adjustment of the display screen of the video display device 2 from the outside by wire or wirelessly. good.

The operation processing unit 8 analyzes the content of the operation by the user received by the operation reception unit 7 (hereinafter referred to as “user operation content”), and transmits the analysis result to the calculation control unit 9. For example, the user's operation content includes instructing automatic adjustment of the display screen in the video display device 2, adjusting the automatic adjustment instruction in the positive direction (first direction), or in the negative direction (second direction). (Direction of), etc.

The arithmetic control unit 9 acquires video information from the video signal processing unit 6 and transmits the acquired video information to the display control unit 11 to display the video based on the video information on the display screen. Further, when new video information is input to the calculation control unit 9 by inputting a new video signal to the video display device 2, the calculation control unit 9 displays the current video displayed on the display screen. The information is stored in the storage unit 10. Then, the arithmetic control unit 9 stores the current video information in the storage unit 10, and then transmits the newly input video information to the display control unit 11, so that the video based on the newly input video information is transmitted. Is displayed on the display screen. However, if the current video information and the newly input video information are the same and there is no change in the video information, it is not necessary to store the current video information in the storage unit 10.

Here, when the operation reception unit 7 accepts an operation by the user after the video information having a change with respect to the current video information is newly input, the calculation control unit 9 reflects the operation content of the user. Therefore, the optimum adjustment for the display screen of the image display device 2 is automatically performed.

Hereinafter, a method of adjusting the display screen in the video display device 2 according to the first embodiment will be described. FIG. 2 is a functional block diagram for adjusting the display screen of the arithmetic control unit 9 according to the first embodiment.

As shown in FIG. 2, the arithmetic control unit 9 includes a signal processing unit 91, an extraction unit 92, a specific unit 93, and an adjustment unit 94.

When the newly input video information is different from the current video information, the signal processing unit 91 stores the current video information in the storage unit 10 and displays the newly input video information in the display control unit 11. The newly input video information is transmitted and displayed on the display screen.

Here, when the operation receiving unit 7 accepts an operation by the user while the newly input video information is displayed on the display screen, the signal processing unit 91 receives the newly input video information. (That is, the video information displayed on the display screen) is compared with the video information stored in the storage unit 10, and the rate of change ΔH of the signal values of various signals included in the video information is calculated. This rate of change ΔH indicates how much the signal value has changed when the video information has changed, and is, for example, a rate of 0 to 100%.

The extraction unit 92 determines whether or not there is a change rate ΔH exceeding a predetermined threshold value among the change rate ΔH of each signal extracted by the signal processing unit 91, and determines that there is a change rate ΔH exceeding the threshold value. In that case, the signal having the rate of change ΔH is extracted. That is, the extraction unit 92 extracts, among various signals, a signal whose signal change rate ΔH exceeds the threshold value before and after the change in the video information.

When there are a plurality of signals whose signal value change rate ΔH exceeds a predetermined threshold value, the extraction unit 92 may extract all signals whose change rate ΔH exceeds a predetermined threshold value, or the change rate. Among a plurality of signals in which ΔH exceeds a predetermined threshold value, the signal having the largest change rate ΔH may be extracted. Further, when there are a plurality of signals in which the rate of change ΔH of the signal value exceeds a predetermined threshold value, the extraction unit 92 extracts one or a plurality of arbitrary signals from the plurality of signals in which the rate of change ΔH exceeds a predetermined threshold value. You may.

The identification unit 93 specifies adjustment items on the display screen corresponding to the signal extracted by the extraction unit 92. Here, the adjustment item is an item that can be adjusted with respect to the display screen, and includes, for example, contrast, brightness, color depth, hue, image quality, and the like. The specific unit 93 outputs the specified adjustment item to the adjustment unit 94.

The adjustment unit 94 acquires the current set value S in the adjustment item specified by the specific unit 93.
When the adjustment unit 94 acquires the user's operation content that "the adjustment direction of the display screen is the plus direction" from the operation processing unit 8, the adjustment unit 94 has a positive code for the rate of change ΔH of the signal extracted by the extraction unit 92. Is given. On the other hand, when the adjustment unit 94 acquires the user's operation content that "the adjustment direction of the display screen is in the minus direction" from the operation processing unit 8, the change rate ΔH of the signal extracted by the extraction unit 92 is negative. The sign of is given.

The adjustment unit 94 calculates the adjustment value by adding a sign to the rate of change ΔH and then multiplying the set value S acquired in advance by the rate of change with the sign. Then, the adjustment unit 94 transmits the calculated adjustment value to the display unit 12, so that the setting value of the current display screen is updated to the adjustment value. That is, the adjusting unit 94 adjusts the set value S based on the adjusted value obtained by multiplying the previously acquired set value S by the signed rate of change.

The display control unit 11 acquires the video information transmitted from the arithmetic control unit 9, and displays the video based on the video information on the display unit 12. Further, the display control unit 11 displays on the display screen a selection screen that allows the user to select either a plus direction or a minus direction as the adjustment direction.
The display control unit 11 updates the current set value S in the adjustment item specified by the specific unit 93 based on the adjustment value transmitted by the adjustment unit 94.

The display unit 12 is a display screen of the image display device 2, and is, for example, an LCD (Liquid Crystal Display) or an EL (Electroluminescence) panel.

Next, the operation of the video display device 2 according to the first embodiment will be described with reference to FIG. FIG. 3 is a diagram illustrating the operation of the video display device 2 according to the first embodiment.

The video display device 2 acquires the video signal input from the external device 1 (step S101). Then, the video display device 2 analyzes the acquired video signal and displays the video on the display screen based on the video information obtained from the analysis result (step S102).

Here, the signal processing unit 91 of the video display device 2 newly inputs a video signal from the external device 1, and whether the video information (new video information) of the video signal changes with respect to the current video information. It is determined whether or not there is a change (step S103), and if it is determined that there is a change, the current video information is saved. Then, the signal processing unit 91 displays the video on the display screen based on the new video information. That is, when there is a change in the video information, the signal processing unit 91 stores the video information before the change in the storage unit 10 (step S104) and displays the video information after the change on the display screen (step S105). ).

Next, the signal processing unit 91 determines whether or not to apply the automatic adjustment of the display unit 12 (step S106). The case of applying the automatic adjustment of the display unit 12 is, for example, a case where the user is dissatisfied with the image displayed on the current display screen (for example, brightness, chromaticity, etc.) and desires to change the image.

Specifically, for example, by operating an operation unit such as a button or a mouse provided on the video display device 2, the display unit 12 displays a menu screen on which automatic adjustment can be selected. Then, when the user performs an operation of selecting to perform the automatic adjustment of the display unit 12 on the menu screen, the operation reception unit 7 automatically adjusts the display screen (display unit 12) by accepting the operation. Judge that the adjustment is applied.

When it is determined that the automatic adjustment of the display screen (display unit 12) is applied, the signal processing unit 91 determines the video information before and after the change (that is, the video information stored in the storage unit) and the video information after the change. (For example, the video information displayed on the display unit 12) is compared with (step S107). Then, as a result of comparison, the video display device 2 extracts a signal in which the rate of change ΔH of the signal value exceeds the threshold value (step S108). For example, the extraction unit 92 of the video display device 2 graphs the rate of change of each signal when the video information before the change is changed to the video information after the change. Then, the extraction unit 92 extracts a signal whose rate of change exceeds a predetermined threshold value. Here, the video display device 2 determines that the change in the signal extracted by the extraction unit 92 before and after the video information is the cause of the user's discomfort.

The identification unit 93 specifies an adjustment item on the display screen corresponding to the signal extracted by the extraction unit 92 (step S109). Then, the adjustment unit 94 reads out the current set value S in the adjustment item specified by the specific unit 93 (step S110). The adjustment items according to the present embodiment are, for example, contrast, brightness, color depth, hue, image quality, and the like.

Here, the video display device 2 causes the user to select whether to set the adjustment direction of the display screen to the plus direction or the minus direction. For example, the display control unit 11 of the video display device 2 displays a selection screen on the display screen for selecting whether the adjustment direction of the display screen is in the plus direction or the minus direction (step S111). The selection screen according to the present embodiment is preferably the same GUI as the menu screen for selecting automatic adjustment in step S106.
As a result, the user can select the adjustment direction of the display screen from the selection screen by operating a pointing device such as a mouse or an operation unit such as a button (step S112).

For example, it is assumed that the user chooses to perform automatic adjustment because he / she feels uncomfortable that the video information displayed on the display screen of the video display device 2 has changed and the brightness has decreased, that is, it has become dark. In this case, the user can select the adjustment direction desired by the user by selecting the direction for improving the brightness, that is, the plus direction in step S112. On the other hand, it is assumed that the user chooses to perform automatic adjustment because he / she is uncomfortable that the video information displayed on the display screen of the video display device 2 changes and the display screen is too bright. In this case, in step S112, the user can select the adjustment direction desired by himself / herself by selecting the direction in which the brightness is lowered, that is, the minus direction. In the above example, the case where the user feels uncomfortable with the brightness has been described, but the present invention is not limited to this, and the same applies to the case where the user feels uncomfortable with the contrast, the chromaticity, or the like.

However, even if some users feel uncomfortable with the image on the display screen due to changes in the image information displayed on the display screen, the specific cause is whether it is contrast or chromaticity. It may not be possible to determine the specific adjustment items. Therefore, in the present embodiment, the user is not allowed to select the adjustment item, but only the adjustment direction is selected. That is, the user is made to select only the positive direction in which the setting value of some adjustment item is increased or the negative direction in which the setting value of some adjustment item is decreased with respect to the current image. As a result, the user does not have to worry about which adjustment item should be adjusted, and can make the optimum adjustment to the display screen simply by intuitively selecting the adjustment direction.

When the user selects the positive direction as the adjustment direction of the display screen, the adjustment unit 94 assigns a positive sign to the rate of change ΔH of the signal extracted by the extraction unit 92 (step S113). On the other hand, when the minus direction is selected as the adjustment direction of the display screen, the adjustment unit 94 assigns a minus sign to the change rate ΔH of the signal extracted by the extraction unit 92 (step S114).

The adjustment unit 94 calculates the adjustment value by adding a plus or minus sign to the change rate ΔH and then multiplying the previously acquired set value S by the signed change rate ΔH (step S115). Then, the adjustment unit 94 transmits the calculated adjustment value to the display unit 12. As a result, the setting value S of the current display screen is updated (step S116). For example, when the rate of change ΔH is 40% and the set value S is 20, and the user selects the positive direction as the adjustment direction of the display screen, the adjustment unit 94 increases the set value of 20 by + 40%. By doing so, the adjustment value = "28" (= 20 × 1.4) is obtained. Then, the adjustment unit 94 transmits this adjustment value = "28" to the display control unit 11. Therefore, the display control unit 11 updates the adjustment value = "28" as a new set value S. That is, the adjustment unit 94 adjusts the set value of the adjustment item on the display screen. Then, when the set value S is updated, the process returns to the process of step S103.

In this way, when the user wants to change the brightness and chromaticity of the image displayed on the current display screen, select the automatic adjustment from the adjustment screen (menu screen) of the display screen and add the screen adjustment direction. When the direction or the minus direction is selected, the video display device 2 dynamically adjusts the setting value of the screen corresponding to the changed signal that has the greatest influence on the user. That is, if the user feels uncomfortable due to the change in the video information and selects to perform the automatic adjustment, the video display device 2 exceeds the signal or the threshold value at which the rate of change exceeds the threshold value before and after the change in the video information. The signal with the largest rate of change is considered to be the cause of the user's discomfort, and the amount of change is dynamically adjusted. Therefore, the user does not need to think about the adjustment item that needs to be adjusted and the setting value of the item. As a result, the optimum adjustment can be made to the display screen.

(Second embodiment)
The video display device 2B according to the second embodiment will be described below. The video display device 2B according to the second embodiment classifies various signals included in the video information into a plurality of groups in the method of adjusting the display screen in the video display device 2 as compared with the first embodiment. , The difference is that the signal having the maximum rate of change ΔH is extracted in each group, and the other configurations are the same as those in the first embodiment. In the drawings, the same or similar parts may be designated by the same reference numerals to omit duplicate explanations.

FIG. 4 is a diagram showing an example of a schematic configuration of a video display system B including the video display device according to the second embodiment. As shown in FIG. 4, the video display system B includes an external device 1 and a video display device 2B.

The video display device 2B displays a video based on the video signal transmitted from the external device 1 on the display screen of the own device. Hereinafter, a schematic configuration of the video display device 2B according to the second embodiment will be described.

The video display device 2B includes an input control unit 5, a video signal processing unit 6, an operation reception unit 7, an operation processing unit 8, an arithmetic control unit 9B, a storage unit 10, a display control unit 11, and a display unit 12.

The arithmetic control unit 9B acquires video information from the video signal processing unit 6 and transmits the acquired video information to the display control unit 11 to display the video based on the video information on the display screen. Further, when new video information is input to the calculation control unit 9B by inputting a new video signal to the video display device 2B, the calculation control unit 9B will display the current video displayed on the display screen. The information is stored in the storage unit 10. Then, the arithmetic control unit 9B stores the current video information in the storage unit 10, and then transmits the newly input video information to the display control unit 11, so that the video based on the newly input video information is transmitted. Is displayed on the display screen. However, as in the first embodiment, if the current video information and the newly input video information are the same and there is no change in the video information, the current video information is stored in the storage unit 10. You don't have to.

When the operation reception unit 7 accepts an operation by the user after the video information having a change with respect to the current video information is newly input, the arithmetic control unit 9B reflects the operation content of the user and the video. Optimal adjustment is automatically made to the display screen of the display device 2B.
Hereinafter, a method of adjusting the display screen in the video display device 2B according to the second embodiment will be described. FIG. 5 is a functional block diagram for adjusting the display screen of the arithmetic control unit 9B according to the second embodiment.

As shown in FIG. 5, the arithmetic control unit 9B includes a signal processing unit 91, a classification unit 100, an extraction unit 92B, a specific unit 93, and an adjustment unit 94.

When the signal processing unit 91 calculates the rate of change ΔH of each signal, the classification unit 100 sets the signal that affects the brightness of the display screen as the first group among the various signals included in the video information, and sets the video as the first group. Signals that affect color are classified as the second group.

The extraction unit 92B extracts a signal that is equal to or greater than the threshold value and has the maximum change rate ΔH in each group classified by the classification unit 100.

The specifying unit 93 specifies adjustment items on the display screen corresponding to each signal extracted by the extraction unit 92 in each of the first group and the second group. Then, the specific unit 93 outputs the two specified adjustment items to the adjustment unit 94.

The adjustment unit 94 acquires the _{current set values S 1} and S ₂ in each adjustment item specified by the specific unit 93. Then, when the adjustment unit 94 acquires the operation content of the user that "the adjustment direction of the display screen is the plus direction" from the operation processing unit 8, the change rate ΔH of each signal extracted by the extraction unit 92 is Give each a positive sign. On the other hand, when the adjustment unit 94 acquires the user's operation content that "the adjustment direction of the display screen is a minus direction" from the operation processing unit 8, the change rate ΔH of each signal extracted by the extraction unit 92 Give each a minus sign.

The adjustment unit 94 calculates the adjustment value by multiplying the _{set values S 1} and S ₂ acquired in advance by each of the signed change rates after assigning a sign to each change rate ΔH, and controls the display. It is transmitted to the unit 11.

Next, the operation of the video display device 2B according to the second embodiment will be described with reference to FIG. FIG. 6 is a diagram illustrating the operation of the video display device 2B according to the second embodiment.

The video display device 2B acquires the video signal input from the external device 1 (step S201). Then, the video display device 2 analyzes the acquired video signal and displays the video on the display screen based on the video information obtained from the analysis result (step S202).

Here, the video display device 2B newly inputs a video signal from the external device 1 and determines whether or not the video information (new video information) of the video signal has changed with respect to the current video information. (Step S203) If it is determined that there is a change, the current video information is saved. Then, the video display device 2B displays the video on the display screen based on the new video information. That is, when there is a change in the video information, the video display device 2B stores the video information before the change in the storage unit 10 (step S204) and displays the video information after the change on the display screen (step S205). ).

Next, the video display device 2B determines whether or not to apply the automatic adjustment of the display unit 12 as in the process of step S106 according to the first embodiment (step S206).

When it is determined that the automatic adjustment of the display screen (display unit 12) is applied, the video display device 2B receives the video information before and after the change (that is, the video information stored in the storage unit) and the video information after the change. (That is, the video information displayed on the display unit 12) is compared (step S207). Then, the video display device 2B calculates the rate of change ΔH of the signal values of various signals included in the video information for each signal.

When the rate of change ΔH of the signal value is calculated for each signal, the classification unit 100 classifies the signal that affects the brightness of the display screen into the first group (step S208), and the signal that affects the color is the second. (Step S209). Then, the extraction unit 92B extracts the signal having the largest rate of change ΔH in each group (step S210). The signal extracted by the extraction unit 92B is determined to be the reason for adjustment of the display screen by the user.

The identification unit 93 specifies each adjustment item on the display screen corresponding to the signal extracted by the extraction unit 92 (step S211). _{Then, the adjusting unit 94 reads out the current set value S 1} and the set value S ₂ in the adjustment item specified by the specific unit 93 (step S212). Here, the rate of change ΔH of the signal extracted from the first group is set to ΔH _1, and the set value of the setting item corresponding to the signal is set to the set value S ₁ . Further, the rate of change ΔH of the signal extracted from the second group is set to ΔH _2, and the set value of the setting item corresponding to the signal is set to the set value S ₂ .

The video display device 2B displays a selection screen on the display screen for selecting whether to set the adjustment direction of the display screen to the plus direction or the minus direction (step S213). The selection screen according to the present embodiment is preferably the same GUI as the menu screen for selecting automatic adjustment in step S206. As a result, the user can select the adjustment direction of the display screen from the selection screen by operating a pointing device such as a mouse or an operation unit such as a button (step S214).

When the user selects the positive direction as the adjustment direction of the display screen, the adjustment unit 94 assigns a positive sign to the _{rate of change ΔH 1} and the rate of change ΔH _{2 (step S215).} On the other hand, when the minus direction is selected as the adjustment direction of the display screen, the adjustment unit 94 assigns a minus sign to _{the change rate ΔH 1} and the change rate ΔH _{2 (step S216).}

Then, the adjusting unit 94 adds a plus or minus sign to the _{change rate ΔH 1} and the change rate ΔH _{2 , and then multiplies the previously acquired set value S 1} by the signed change rate ΔH ₁ to obtain the set value S. The adjustment value of each adjustment item is calculated by multiplying ₂ by the signed change rate ΔH _{2 (step S217).} Then, the adjustment unit 94 transmits each of the calculated adjustment values to the display unit 12. Thus, the set value of the current display screen _{S 1} and the set value _{S 2} is updated (step S218).

Hereinafter, examples of the second embodiment will be described.
For example, when the user switches from the video X displayed on the display unit 12 of the current video display device 2 to the video Y by operating the external device 1 (for example, a PC), the arithmetic control unit 9B of the video display device 2 Stores the video signal (video information) of the video X in the storage unit 10, and displays the video Y from the newly input video signal (video information).

Here, the user feels uncomfortable with the setting of the image Y and the display screen for displaying the image Y, and tries to make adjustments. However, since there are many types of adjustment items on the display screen of the image display device 2B and it is not possible to specify the adjustment items that need to be adjusted by oneself, automatic adjustment is selected and plus is selected in the adjustment direction.
In this case, the signal processing unit 91 of the video display device 2B compares each signal in the video information of the video X and Y at the time of automatic adjustment, and calculates the rate of change ΔH of each signal. Here, the classification unit 100 classifies the signals that affect the brightness of the displayed image into the first group, and classifies the signals that affect the color as the first group. Therefore, for example, the extraction unit 92B graphs the rate of change ΔH of each signal of the first group before and after the change of each signal (for example, FIG. 7), and graphs the rate of change ΔH of each signal of the second group. (For example, FIG. 8).

In the example of FIG. 7, the change rate of the signal (2) among the signals (1) to (6) of the first group increases by 40 (%) before and after the change of the video information, and the change rate is equal to or higher than the threshold value. And it is the largest. Further, in the example of FIG. 8, the rate of change of the signal (8) of the second group has increased by 40 (%), and the rate of change is at least the threshold value and is the maximum. Therefore, the extraction unit 92B extracts the signal (2) from the first group and extracts the signal (8) from the second group.

Therefore, the specifying unit 93 identifies the items corresponding to the signal (2) and the signal (8) from the adjustment items of the display unit 12, and confirms the set values. For example, when the setting value of the setting item of the display unit 12 corresponding to the signal (2) is "20" and the setting value of the setting item of the display unit 12 corresponding to the signal (8) is "10". , The adjustment unit 94 calculates the adjustment value by applying the change rate 40 (%) of the signal (2) and the signal (8) to these set values. Here, since the adjustment direction desired by the user is the plus direction, the adjustment unit 94 adjusts the setting value "20" of the setting item corresponding to the signal (2) to +40 (%) to the signal (8). Adjust the setting value "10" of the corresponding setting item to +40 (%). That is, the adjusting unit 94 adjusts the set value of the signal (2) to "28" (= 20 x 1.4), and sets the set value of the signal (8) to "14" (= 10 x 1.4). adjust.

As described above, also in the second embodiment, when the user wants to change the brightness and chromaticity of the image displayed on the current display screen, the selection of automatic adjustment from the adjustment screen (menu screen) of the display screen is selected. If you select whether to set the screen adjustment direction to the plus direction or the minus direction, the video display device 2 dynamically adjusts the screen adjustment value corresponding to the changed signal that has the greatest effect on the user. To do. That is, if the user feels uncomfortable due to the change in the video information and selects to perform the automatic adjustment, the video display device 2B displays the user with the signal having the largest change rate in each group before and after the change in the video information. Dynamically adjust the change as the cause of the discomfort. Therefore, the user does not need to think about the adjustment item that needs to be adjusted and the setting value of the item. As a result, the optimum adjustment can be made to the display screen.

Next, the main configuration of the image display device 2 according to the embodiment of the present invention will be described.
FIG. 9 is a diagram illustrating a main configuration of a video display device 2 according to an embodiment of the present invention.
As shown in FIG. 9, the video display device 2 includes an operation reception unit 7, an extraction unit 92, a specific unit 93, and an adjustment unit 94.

The operation reception unit 7 receives an operation.
When there is a change in the video information and the operation is accepted by the operation reception unit 7, the extraction unit 92 extracts a signal whose change in the signal value exceeds the threshold value before and after the change in the video information among various signals.
The identification unit 93 specifies an adjustment item on the display screen corresponding to the signal extracted by the extraction unit.
The adjustment unit 94 adjusts the set value of the adjustment item specified by the specific unit 93.

As a result, the video display devices 2 and 2B dynamically adjust the adjustment value of the screen corresponding to the changed signal that has the greatest influence on the user. It is not necessary to think about the setting value of the item. Therefore, the optimum adjustment can be made to the display screen.

Further, the extraction unit 92 may extract a signal having the largest change among various signals, which is a signal whose change exceeds the threshold value before and after the change of the video information.

Further, the video display device according to the embodiment of the present invention may include a classification unit 100. Among the various signals, the classification unit 100 classifies the signals that affect the brightness of the display screen as the first group and the signals that affect the color of the image as the second group. Then, the extraction unit 92 (92B) may extract the signal having the maximum change in each group.

For example, in the video display device according to the embodiment of the present invention, when it is detected that the signal input to the video display device 2 has a change and the user has attempted adjustment, each signal before and after the change of the video signal is detected. After detecting the difference, the signals that affect the brightness of the screen are classified into the first group, the signals that affect the color are classified into the second group, and the signal with the largest rate of change in each group is adjusted by the user. It may have a step to determine that it is the reason. Then, an adjustment means may be provided which allows the user to select the adjustment direction desired by the user by plus or minus, and then assigns a sign to the maximum rate of change and multiplies the set value of the display screen.

Although the embodiments of the present invention have been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and includes designs and the like within a range that does not deviate from the gist of the present invention.

For example, if 0 to 100 is the adjustment range of the set value and +40 (%) is adjusted for the adjustment item whose current set value is "80", the set value as a result of the adjustment is "112". Will be. Here, since 100 is the maximum adjustment amount, the adjustment of +40 (%) cannot be substantially performed. However, in the present embodiment, it is assumed that the change in the signal having the highest rate of change is the cause of the user's discomfort. Therefore, the video display device according to the embodiment of the present invention adjusts the set value to the maximum. It may be set to the value "100". Further, when there are a plurality of signals having the maximum rate of change in each group, all the set values of the adjustment items of the signal having the maximum rate of change may be adjusted.

Further, in the above embodiment, the video display device 2 uses the video information displayed on the display unit 12 as the video information after the change in steps S107 and S207, but the present invention is not limited to this. That is, the video information after the change does not have to be the video information displayed on the display screen.
For example, when the signal processing unit 91 of the video display device 2 determines in steps S103 and S203 that the new video information has a change with respect to the current video information, the current video information and the new video Information may be stored in the storage unit 10. That is, the signal processing unit 91 may store the video information before the change and the video information after the change in the storage unit 10. In this case, when the signal processing unit 91 determines in steps S107 and S207 that the automatic adjustment of the display screen is applied, the signal processing unit 91 reads out the video information before the change and the video information after the change from the storage unit 10. And compare.

According to the above-mentioned video display device, optimum adjustment can be made to the display screen.

A, B Video display system 1 External device 2, 2B Video display device 7 Operation reception unit 91 Signal processing unit 92, 92B Extraction unit 93 Specific unit 94 Adjustment unit 100 Classification unit

Claims (10)

A video display device that acquires video information including various signals necessary for displaying video from an external device and displays the video based on the video information on the display screen.
The operation reception unit that accepts operations and
When there is a change in the video information and the operation is received by the operation reception unit, an extraction unit that extracts a signal whose change in signal value exceeds a threshold value before and after the change in the video information among the various signals. When,
A specific unit that specifies an adjustment item on the display screen corresponding to the signal extracted by the extraction unit, and a specific unit.
An adjustment unit that adjusts the set values of the adjustment items specified by the specific unit, and
A video display device characterized by being equipped with. The first aspect of the present invention is characterized in that the extraction unit extracts, among the various signals, a signal whose change exceeds the threshold value before and after the change of the video information, and which has the largest change. Video display device. Among the various signals, the signal that affects the brightness of the display screen is classified as the first group, and the signal that affects the color of the image is further classified as the second group.
The video display device according to claim 1 or 2, wherein the extraction unit extracts a signal having the maximum change in each of the groups. When the operation is received by the operation receiving unit after the video information is changed, the extraction unit sets a threshold value for the change in the signal value before and after the change in the video information among the various signals. The video display device according to any one of claims 1 to 3, wherein a signal exceeding the signal is extracted. Memory and
When there is a change in the video information, a signal processing unit that stores the video information before the change in the storage unit and displays the video information after the change on the display screen.
Equipped with
When the operation is received by the operation receiving unit, the extraction unit is displayed on the display screen together with the video information before the change stored in the storage unit among the various signals. The video display device according to any one of claims 1 to 4, wherein a signal whose change in signal value exceeds a threshold value is extracted with the video information. Memory and
When there is a change in the video information, a signal processing unit that stores the video information before the change and the video information after the change in the storage unit,
Equipped with
When the operation is received by the operation receiving unit, the extraction unit has a signal value change exceeding a threshold value in the video information before and after the change stored in the storage unit among the various signals. The video display device according to any one of claims 1 to 4, wherein a signal is extracted. One of claims 1 to 6, wherein the adjusting unit adjusts a set value of the adjustment item specified by the specific unit based on the rate of change of a signal extracted by the extracting unit. The video display device according to item 1. The display control unit is provided with a display control unit that displays a selection screen for selecting either a first direction in which the set value is high or a second direction in which the set value is low. ,
The video display device according to any one of claims 1 to 7, wherein the adjusting unit adjusts the set value in a direction selected by the selection screen. When the direction selected by the selection screen is the first direction, the adjusting unit multiplies the set value by a value obtained by adding a plus sign to the rate of change of the signal extracted by the extracting unit. When the direction selected by the selection screen is the second direction, the set value is adjusted by multiplying the set value by the value obtained by adding a minus sign to the rate of change. 8. The video display device according to claim 8. It is a video display method that acquires video information including various signals necessary for displaying video from an external device and displays the video based on the video information on the display screen of the video display device.
The operation reception step that accepts the operation and the operation reception step
When there is a change in the video information and the operation is received by the operation reception step, an extraction step of extracting a signal whose change in signal value exceeds a threshold value before and after the change in the video information among the various signals. When,
A specific step for specifying an adjustment item on the display screen corresponding to the signal extracted by the extraction step, and a specific step.
An adjustment step for adjusting the set value of the adjustment item specified by the specific step, and an adjustment step.
Video display method including.

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